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We are analyzing https://link.springer.com/article/10.1007/bf00285634.

Title:
Morphology and development of the macronuclei of the ciliates Stylonychia mytilus and Euplotes aediculatus | Chromosoma
Description:
Some stages of macronuclear anlagen development, known from earlier investigations (see Fig. 1), were studied in detail. The results are: a) The giant chromosomes of Stylonychia mytilus are not somatically paired, but are connected end-to-end to form one or a few composite chromosomes. When they later disintegrate, the bands become isolated granules. b) Spectrophotometric measurements show that during the DNA-poor stage which follows the disintegration of the chromosomes, the macronuclear anlagen of Euplotes have a DNA content of 21 c, while the syncaryotic (deriving from syncarya) and hemicaryotic (deriving from haploid hemicarya) anlagen of Stylonychia have the DNA content of diploid micronuclei (2c). Nevertheless the syncaryotic anlagen of Stylonychia and Euplotes initially develop two nucleoli at the end of this stage, the hemicaryotic anlagen of Stylonychia only one. From this it is concluded that the genes of one giant chromosome band stay together in one granule, c) Labeled DNA from the giant chromosomes which remains in the anlagen during the DNA-poor stage is distributed approximately equally to the daughter nuclei during the first few fissions of the exconjugants.-Autoradiographic experiments showed that the DNA of the macronuclei of Stylonychia that is duplicated at one time in a replication band is not duplicated simultaneously during the next DNA-duplication. The DNA duplications during the second polyploidization stage of the macronuclear anlagen development are exceptions, because the mixing of the macronuclear DNA which occurs before every fission does not occur during the second polyploidization stage.—The pseudomicronuclei which sometimes are formed from the macronuclei in emicronucleated strains of Stylonychia contain numerous elements which are much smaller than the chromosomes.—The macronucleus of Stylonychia is very insensitive to irradiation with X-rays.—The results lead to the following hypothesis: The macronuclei of the two hypotrich ciliates contain unconnected chromomeres or small aggregates which are distributed at random to the two daughter nuclei during the divisions.
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Keywords {🔍}

google, scholar, stylonychia, euplotes, article, cell, macronuclear, dna, chromosomes, development, content, mytilus, anlagen, chromosoma, privacy, cookies, research, macronuclei, ciliates, ammermann, macronucleus, access, conjugation, exp, information, publish, search, giant, stage, chromosome, nuclei, replication, acid, res, zool, data, log, journal, aediculatus, band, small, nuclear, paramecium, related, discover, protozoa, nature, ciliaten, makronukleus, berl,

Topics {✒️}

month download article/chapter subchromosomal-size dna molecules spectrophotometric measurements show age-dependent intraclonal conjugation ciliate stylonychia mytilus small nuclear packages privacy choices/manage cookies full article pdf related subjects dna breakdown products ciliates stylonychia mytilus stylonychia mytilus exconjugants euplotes closely related article chromosoma aims stylonychia notophora stokes european economic area autoradiographic experiments showed synthetic chromosomal unit comparative morphological study article ammermann nucleic acid synthesis deoxyribonucleic acid synthesis conditions privacy policy check access macronuclear reorganization process instant access replication band nucleic acid metabolism accepting optional cookies vegetative cell cycle stylonychia mytilus euplotes initially develop distributed approximately equally small aggregates north-holland publ ciliated protozoan euplotes macronuclear chromatin structure dna-poor stage genomic exclusion euplotes patella ehrenberg main content log dna replication sequence euplotes aediculatus published journal finder publish diploid micronuclei macronuclear anlage article log macronuclear anlagen development article cite privacy policy

Schema {🗺️}

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         headline:Morphology and development of the macronuclei of the ciliates Stylonychia mytilus and Euplotes aediculatus
         description:Some stages of macronuclear anlagen development, known from earlier investigations (see Fig. 1), were studied in detail. The results are: a) The giant chromosomes of Stylonychia mytilus are not somatically paired, but are connected end-to-end to form one or a few composite chromosomes. When they later disintegrate, the bands become isolated granules. b) Spectrophotometric measurements show that during the DNA-poor stage which follows the disintegration of the chromosomes, the macronuclear anlagen of Euplotes have a DNA content of 21 c, while the syncaryotic (deriving from syncarya) and hemicaryotic (deriving from haploid hemicarya) anlagen of Stylonychia have the DNA content of diploid micronuclei (2c). Nevertheless the syncaryotic anlagen of Stylonychia and Euplotes initially develop two nucleoli at the end of this stage, the hemicaryotic anlagen of Stylonychia only one. From this it is concluded that the genes of one giant chromosome band stay together in one granule, c) Labeled DNA from the giant chromosomes which remains in the anlagen during the DNA-poor stage is distributed approximately equally to the daughter nuclei during the first few fissions of the exconjugants.-Autoradiographic experiments showed that the DNA of the macronuclei of Stylonychia that is duplicated at one time in a replication band is not duplicated simultaneously during the next DNA-duplication. The DNA duplications during the second polyploidization stage of the macronuclear anlagen development are exceptions, because the mixing of the macronuclear DNA which occurs before every fission does not occur during the second polyploidization stage.—The pseudomicronuclei which sometimes are formed from the macronuclei in emicronucleated strains of Stylonychia contain numerous elements which are much smaller than the chromosomes.—The macronucleus of Stylonychia is very insensitive to irradiation with X-rays.—The results lead to the following hypothesis: The macronuclei of the two hypotrich ciliates contain unconnected chromomeres or small aggregates which are distributed at random to the two daughter nuclei during the divisions.
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            Chromosome Band
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            Cell Biology
            Biochemistry
            general
            Human Genetics
            Animal Genetics and Genomics
            Eukaryotic Microbiology
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      headline:Morphology and development of the macronuclei of the ciliates Stylonychia mytilus and Euplotes aediculatus
      description:Some stages of macronuclear anlagen development, known from earlier investigations (see Fig. 1), were studied in detail. The results are: a) The giant chromosomes of Stylonychia mytilus are not somatically paired, but are connected end-to-end to form one or a few composite chromosomes. When they later disintegrate, the bands become isolated granules. b) Spectrophotometric measurements show that during the DNA-poor stage which follows the disintegration of the chromosomes, the macronuclear anlagen of Euplotes have a DNA content of 21 c, while the syncaryotic (deriving from syncarya) and hemicaryotic (deriving from haploid hemicarya) anlagen of Stylonychia have the DNA content of diploid micronuclei (2c). Nevertheless the syncaryotic anlagen of Stylonychia and Euplotes initially develop two nucleoli at the end of this stage, the hemicaryotic anlagen of Stylonychia only one. From this it is concluded that the genes of one giant chromosome band stay together in one granule, c) Labeled DNA from the giant chromosomes which remains in the anlagen during the DNA-poor stage is distributed approximately equally to the daughter nuclei during the first few fissions of the exconjugants.-Autoradiographic experiments showed that the DNA of the macronuclei of Stylonychia that is duplicated at one time in a replication band is not duplicated simultaneously during the next DNA-duplication. The DNA duplications during the second polyploidization stage of the macronuclear anlagen development are exceptions, because the mixing of the macronuclear DNA which occurs before every fission does not occur during the second polyploidization stage.—The pseudomicronuclei which sometimes are formed from the macronuclei in emicronucleated strains of Stylonychia contain numerous elements which are much smaller than the chromosomes.—The macronucleus of Stylonychia is very insensitive to irradiation with X-rays.—The results lead to the following hypothesis: The macronuclei of the two hypotrich ciliates contain unconnected chromomeres or small aggregates which are distributed at random to the two daughter nuclei during the divisions.
      datePublished:
      dateModified:
      pageStart:209
      pageEnd:238
      sameAs:https://doi.org/10.1007/BF00285634
      keywords:
         Developmental Biology
         Early Investigation
         Spectrophotometric Measurement
         Chromosome Band
         Small Aggregate
         Cell Biology
         Biochemistry
         general
         Human Genetics
         Animal Genetics and Genomics
         Eukaryotic Microbiology
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